利用压力中心信息开发可进行手内旋转的双指机器人

Pub Date : 2024-04-20 DOI:10.20965/jrm.2024.p0396

Aulia Khilmi Rizgi, Ryohei Kurata, N. Takesue, Yoshiyuki Toso, Shinichi Kawabata, Akira Tsunoda, Daichi Suzuki

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引用次数: 0

摘要

我们开发了一种双指机器人，它可以抓取、徒手旋转和放置不平整的物体。为了提高徒手旋转的成功率，我们在每个手指上安装了三个压力传感器，以检测每个手指上的压力中心（CoP）。研究人员提出了两种方法，分别称为 "物体即时调整 "和 "重新抓取物体运动（ROM）"，利用获得的 CoP 信息在进行手部旋转之前调整每个手指的位置，并与一般的手部旋转运动进行了比较。对多个物体进行了评估实验，结果表明了所建议方法的有效性，其中 ROM 的成功率最高，达到 93%，而一般手部旋转的成功率仅为 63%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Development of Two-Finger Robot that Performs In-Hand Rotation Using Center of Pressure Information

We developed a two-finger robot that can grasp, rotate in-hand, and place an uneven object. To improve the success rate of in-hand rotation, three pressure sensors were mounted on each finger to detect the center of pressure (CoP) on each finger. Two approaches, called object on-the-fly adjustment and re-grasp object movement (ROM), were proposed to use the obtained CoP information to adjust the position of each finger before performing in-hand rotation and were compared with a general in-hand rotation movement. Evaluation experiments were conducted on several objects, and the effectiveness of the proposed approaches was demonstrated with the highest success rate of 93% for ROM compared with 63% for general in-hand rotation.

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